Study of nitrogen recovery from sludge centrate by means of membrane contactor

[ES] El fango generado en las estaciones depuradoras de aguas residuales urbanas es comunmente tratado a través de una digestión anaerobia. La fracción líquida obtenida en este proceso se suele devolver a cabecera de planta, sin embargo, el alto contenido en nutrientes que esta corriente posee la convierte en un residuo de alto valor añadido. Así pues, la recuperación de nutrientes de esta corriente puede ser una excelente oportunidad para la fabricación de fertilizantes. El principal objetivo de este trabajo es, a partir de una disolución sintética de escurrido de centrífuga, estudiar la recuperación de nitrógeno amoniacal empleando un contactor de membrana. Dicho sistema contiene una membrana hidrofóbica de polipropileno. Además, se estudiará la influencia de la presencia de materia orgánica e iones en el agua a tratar, la temperatura de ésta y la concentración de ácido empleado en la disolución de arrastre.
[EN] This final masters’ project was carried out at the Universitat Politècnica de València (UPV) under the Membrane Processes, Liquid Effluent Treatment and Optimization (PROMETEO) research group. The main objective of the project was to separate ammonium nitrogen (NH4 + ) from sludge centrate by a membrane contactor and establish the optimal operating conditions. The demand for NH4 + is always increasing due to its important applications within the fertiliser industry. With the current production method being very environmentally damaging, a sustainable alternative must be found. Currently, the sludge centrate is recirculated back to the head of the wastewater treatment plant (WWTP) but targeting this for NH4 + recovery provides a sustainable source and adds a profitable product rather than treatment. Sludge undergoes treatment within the WWTP until the final by-product of sludge centrate is produced, which contains a high concentration of ammoniacal nitrogen (ammonia and ammonium). Therefore, by using a hollow fibre liquid-liquid membrane contactor (HF-LLMC), the NH4 + can be recovered from the sludge centrate. Sulphuric acid was used to strip the NH4 + from the sludge centrate, which resulted in the production of ammonium sulphate – a saleable product. The experiments were set up using a commercial HF-LLMC (Liqui-Cel EXF – 2.5x8 Series (3M, USA)) in a closed-loop pilot plant. The parameters studied were feed solution temperature, stripping solution concentration and wastewater composition. Feed solutions were passed through the shell side of the HF-LLMC whereas the stripping solution was passed through the lumen side, both at a constant flow rate of 30 L/h. Samples were taken throughout and analysed to determine the concentration of NH4 + and other substances present in the feed solution at the end of the experiment. From this, the removal efficiencies were calculated to draw conclusions of the feasibility of the HF-LLMC. The analysis of the results showed the H